1. The molecule features a central tetrahedral carbon that bears two fluorine substituents and is connected via an ether linkage (-O-) to a meta-substituted phenyl ring. The ether bond attaches at the phenyl ring's carbon 1, while the substitution occurs at carbon 3.
2. At the meta-substituted position (carbon 3) of the phenyl ring, a chiral carbon with an S configuration is attached. This chiral center is bonded to three groups:
   - a methoxy group (-OCH3)
   - a carbon atom bearing both a hydroxyl (-OH) and an imine function (=N-)
   - the aromatic ring described in point 1
3. The imine nitrogen is further bonded to an aromatic five-membered ring containing two nitrogens and one sulfur (a 1,3,4-thiadiazole-type ring) at position 2 (one of the ring carbons).
4. That thiadiazole ring is substituted by a methylene at position 5 (the other ring carbon), leading to a five-membered saturated ring (pyrrolidine, one nitrogen and four carbons) at the ring carbon meta to the ring nitrogen, and this attachment point forms a chiral center with an S configuration.
5. The pyrrolidine nitrogen is linked to a six-membered aromatic ring with three carbons and three nitrogens, i.e., 1,2,4-triazine, which is arranged as N1-N2-C3-N4-C5-C6, and the attachment point is at C6.